Journal ArticleDOI
γ Radiolysis of Liquids at High Pressures. VIII. Primary Yields at 8.7 kbar and Reactions of the Hydrated Electron with H2O and H3O
Robert R. Hentz,Ronald J. Knight +1 more
TLDR
In this paper, the primary yields of water radiolysis were shown to extend to 8.7 kbar in both neutral and 0.8N H2SO4 solutions, assuming that pressure dependence of k3 is determined approximately by that of water viscosity.Abstract:
Pressure invariance of the primary yields of water radiolysis (previously established for pressures up to 6.4 kbar) was shown to extend to 8.7 kbar in γ radiolysis of both neutral and 0.8N H2SO4 solutions. G(H2) was measured in γ radiolysis of the following deaerated solutions at 25° and pressures in the range 0–8.85 kbar: (a) 3 × 10−5M NaNO3 and 0.05M glucose (slightly alkaline); (b) 10−3M NaNO3, 2.3 × 10−4M HClO4, and 0.05M glucose. In solution (a) G(H2) is determined by a competition for eaq− between the diffusion‐controlled Reaction [3], eaq−+NO3−→no H or H2, and Reaction [1], eaq−+H2O→H+OH−. In solution (b) the competition is between Reactions [3] and [2], eaq−+H3O+→H+H2O. All H are converted to H2 by reaction with glucose. With the assumption that pressure dependence of k3 is determined approximately by that of water viscosity, kinetic analysis of the results gives ΔV1‡ = − 14.3 ml mole−1 and ΔV2‡ ≈ 0 ml mole−1. From the value of ΔV2‡, the absolute partial molal volume of eaq− (based on a value of −...read more
Citations
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Journal ArticleDOI
Structure of the aqueous electron: assessment of one-electron pseudopotential models in comparison to experimental data and time-dependent density functional theory.
John M. Herbert,Leif D. Jacobson +1 more
TL;DR: This work examines a new electron-water pseudopotential model that predicts a more delocalized wave function and no well-defined solvent cavity and finds that the cavity-forming models are far more consistent with the experimental data for the electron's radius of gyration, optical absorption spectrum, and vertical electron binding energy.
Journal ArticleDOI
Structure of the aqueous electron
TL;DR: This Perspective reviews the known experimental properties of e-(aq) along with attempts to reproduce and understand them using both one-electron models and many-electrons quantum chemistry calculations, finding the overwhelming weight of the evidence continues to support the conventional excluded-volume picture of the aqueous electron.
Journal ArticleDOI
Reactivity of hydrogen atoms with liquid water
K. J. Hartig,Nikola Getoff +1 more
TL;DR: In this paper, the reactivity of hydrogen atoms with liquid water was investigated by determination of the final products obtained by the photolysis (λ = 1849 nm) of two systems in the range pH 10 − 13: (a) OH−/N2O/H2O and (b) OH −/H 2O (air free) based on the product yields of the two systems, non-linear fitting computations were performed including all possible reactions; a value of k(H + H2O) = 10 ± 2 dm3 mol−1 s
Journal ArticleDOI
Pulse Radiolysis of Liquids at High Pressures. III. Hydrated‐Electron Reactions Not Controlled by Diffusion
TL;DR: In this article, the specific rates of the reactions of eaq− with hydrogen ion, formamide, acetamide, benzyl alcohol, and 2‐chloroethanol have been measured by pulse radiolysis at 29°C and six pressures from atmospheric to 6.4 kbar.
Journal ArticleDOI
Pulse Radiolysis of Liquids at High Pressures. I. Absorption Spectrum of the Hydrated Electron at Pressures up to 6.3 kbar
TL;DR: In this article, a system for study of the pulse radiolysis of liquids at pressures up to 6.9 kbar is described, where the optical absorption spectrum of the hydrated electron has been measured at 29 ± 3° C and applied pressures in the range 0-6.3 kbar.
References
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Journal ArticleDOI
A compilation of specific bimolecular rate constants for the reactions of hydrated electrons, hydrogen atoms and hydroxyl radicals with inorganic and organic compounds in aqueous solution
Michael Anbar,P. Neta +1 more
TL;DR: In this paper, a compilation of the available kinetic data on the reactivities of the primary species of radiolysis in aqueous solution is presented, covering hydrated electrons, hydrogen atoms and hydroxyl radicals.
Journal ArticleDOI
The Pressure‐Volume‐Temperature Relations of the Liquid, and the Phase Diagram of Heavy Water
TL;DR: In this article, the authors measured the pressure-volume-temperature relations of both liquid D2O and H2O, and the transition parameters of the liquid and solid modifications of D2Os in the range between −60° and +20°C and up to about 9000 kg/cm2.
Journal ArticleDOI
Nuclear Magnetic Resonance in Liquids under High Pressure
George B. Benedek,E. M. Purcell +1 more
TL;DR: In this paper, an application of free precession or ''spin echo'' techniques in nuclear magnetic resonance to a study of the properties of liquids under high pressure was reported. But the results were limited to six liquids: water, n-pentane, n−hexane, toluene, ethyl iodide, and methyl iodide.